Self-consistency and covariance of light-front quark models: testing via P, V and A meson decay constants, and P P weak transition form factors

Abstract

In this paper, we test the self-consistencies of the standard and the covariant light-front quark model and study the zero-mode issue via the decay constants of pseudoscalar (P), vector (V) and axial-vector (A) mesons, as well as the P P weak transition form factors. With the traditional type-I correspondence between the manifestly covariant and the light-front approach, the resulting fV as well as f1\!A and f3\!A obtained with the =0 and = polarization states are different from each other, which presents a challenge to the self-consistency of the covariant light-front quark model. However, such a self-consistency problem can be "resolved" within the type-II scheme, which requires an additional replacement M M0 relative to the type-I case. Moreover, the replacement M M0 is also essential for the self-consistency of the standard light-front quark model. In the type-II scheme, the valence contributions to the physical quantities~( Q) considered in this paper are alway the same as that obtained in the standard light-front quark model, [ Q] val.=[ Q] SLF, and the zero-mode contributions to fV,1\!A,3\!A and f-(q2) exist only formally but vanish numerically, which implies further that [ Q] val.= [ Q] full. In addition, the manifest covariance of the covariant light-front quark model is violated in the traditional type-I scheme, but can be recovered by taking the type-II scheme.